Drive track for a tracked vehicle

ABSTRACT

A drive track for a tracked vehicle comprises a belt having an inner side, an outer side, and two lateral sides. The belt has a longitudinal direction and a lateral direction. A plurality of internal lugs is distributed on the inner side of the belt. At least some of the plurality of internal lugs form two outer longitudinal rows, which are disposed next to a corresponding one of the two lateral sides of the belt. Regions of the belt disposed outwardly of the two outer longitudinal rows are deprived of internal lugs. A plurality of lateral rods is embedded within the belt. The plurality of lateral rods is extending in the lateral direction. Both ends of at least some of the plurality of lateral rods is disposed laterally inwardly of the regions of the belt disposed laterally outwardly of the two outer longitudinal rows. A tracked vehicle is also presented.

TECHNICAL FIELD

The present invention generally relates to drive tracks for trackedvehicles.

BACKGROUND

Tracked vehicles conventionally have a drive track that includes anendless belt and a plurality of idler wheels.

A portion of a prior art drive track 128′ is shown in FIG. 1. The drivetrack 128′ has an endless flexible belt 129′ which has an inner side 128a′ and an outer side 129 b′. The endless track 128′ includes a pluralityof external lugs (or ribs) 123′ that project from the outer side 129 b′to give the endless track 128′ traction against the snow as the endlesstrack 128′ propels the vehicle, and a plurality of internal lugs 126′that project from the inner side 128 a′. The plurality of internal lugs126′ defines four longitudinal rows of inner lugs 125′ and twolongitudinal rows of outer lugs 127′. The two longitudinal rows of outerlugs 127′ are disposed outwardly of the four longitudinal rows of innerlugs 125′.

A slide frame assembly 44′ primarily includes a pair of spaced apartslide rails 46′ that engage the inner side of the drive track 128′. Twoinner idler wheels 50′ and two outer idler wheels 51′ are rotatablyconnected to an axle 61′ which extends laterally between the slide rails46′. The outer idler wheels 51′ are disposed outwardly adjacent to theouter rows of lugs 127′. A plurality of longitudinally spaced apertures(or windows) (not shown) are connected to the inner side 128 a′ of theendless belt 129′. The slide rails 46′ are covered with slide shoes 41′and slide over the alignments cleats 130′.

A plurality of lateral rods 200′ (only one being shown) extend laterallythrough the endless belt 129′ at regular intervals along a length of thebelt 129. The lateral rods 200′ provide reinforcement to the belt 129′.The rods 200′ extend from one lateral side 129 c′ of the belt 129′ tothe other. The rods 200′ are typically made of metal or fiber filledresin and the belt 129′ is typically made of rubber.

When in operation, as the endless belt 129′ is driven by sprocket wheels(not shown) that engage at least some of the lugs 125′, 127′ and windowsand rotates around the idler wheels 50′, 51′. As the belt 129′ rotates,the rods 200′ are successively disposed vertically between the idlerwheels 50′, 51′ and the ground. These rods 200′, which are verticallybetween the idler wheels 50′, 51′ and the ground, support the sliderails 46′ and the idler wheels 50′, 51′.

While the rods 200′ provide reinforcement to the belt 129′, they alsoincrease a weight of the drive track 129′. Furthermore, the rods 200′limit a motion of the snowmobile when side hilling (i.e. moving at anangle with respect to the slope of the hill). Also, noise is generatedwhen the idler wheels 50′, 51′ run over the rods 200′.

Therefore, there is a need for a drive track having a reduced weightwhile providing adequate structural resistance. There is also a need fora drive track that reduces noise generation. Finally there is also aneed for a drive track that allows is suited for side hilling.

SUMMARY

It is an object of the present invention to ameliorate at least someinconveniences of the prior art.

In one aspect, a drive track for a tracked vehicle is provided. Thedrive track comprises a belt having an inner side and an outer side. Thebelt has a longitudinal direction and a lateral direction. The belt hastwo lateral sides. A plurality of external lugs is distributed on theouter side of the belt. The plurality of external lugs is adapted to bein contact with a ground. A plurality of internal lugs is distributed onthe inner side of the belt. The plurality of internal lugs is adapted tobe at least partially in contact with at least one drive sprocket of thetracked vehicle. At least some of the plurality of internal lugs isforming two outer longitudinal rows. Each of the two outer longitudinalrows is disposed next to a corresponding one of the two lateral sides ofthe belt. Regions of the belt disposed outwardly of the two outerlongitudinal rows are deprived of internal lugs. A plurality ofapertures is disposed laterally between the at least two outerlongitudinal rows. A plurality of alignment cleats is disposed laterallybetween the at least two outer longitudinal rows. The plurality ofalignment cleats forms two cleat longitudinal rows. A plurality oflateral rods is embedded within the belt. The plurality of lateral rodsis extending in the lateral direction. Both ends of at least some of theplurality of lateral rods is disposed laterally inwardly of the regionsof the belt disposed laterally outwardly of the two outer longitudinalrows.

In a further aspect, the regions of the belt disposed laterallyoutwardly of the two outer longitudinal rows are adapted to each receivea corresponding idler wheel of the tracked vehicle.

In an additional aspect, each end of the at least some of the pluralityof lateral rods is laterally aligned with a corresponding one of the twocleat longitudinal rows.

In a further aspect, the plurality of the lateral rods is embedded inthe belt between the inner side and the outer side of the belt.

In an additional aspect, each end of at least some of the plurality oflateral rods is laterally aligned with a corresponding one of the twoouter longitudinal rows.

In a further aspect, the two outer longitudinal rows of internal lugseach have an outer edge. Each end of at least some of the plurality oflateral rods is laterally aligned with a corresponding one of the outeredges.

In an additional aspect, the plurality of alignment cleats is adapted tobe contacting sliding rails of the tracked vehicle.

In a further aspect, the plurality of alignment cleats is disposed overevery other portion extending longitudinally between two apertures.

In an additional aspect, the regions of the belt disposed outwardly ofthe two outer longitudinal rows are adapted to contact idler wheels ofthe tracked vehicle.

In yet another aspect, a tracked vehicle is provided. The trackedvehicle comprises a frame. A straddle seat is connected to the frame. Anengine is mounted on an engine cradle portion of the frame. A pair ofslide rails is connected to a bottom of the frame. The vehicle comprisesat least two idler wheels. At least one drive sprocket is operativelyconnected to the engine. A drive track is operatively connected to theat least one drive sprocket for propelling the snowmobile. The drivetrack comprises an endless belt having an inner side and an outer side.The belt has a longitudinal direction and a lateral direction. The belthas two lateral sides. A plurality of external lugs is distributed onthe outer side of the belt. The plurality of external lugs is adapted tobe in contact with a ground. A plurality of internal lugs is distributedon the inner side of the belt. The plurality of internal lugs is atleast partially in contact with the at least one drive sprocket. Atleast some of the plurality of internal lugs is forming two outerlongitudinal rows. The two outer longitudinal rows are disposed near toa corresponding one of the two lateral sides of the belt. The belt hasat least two contact surfaces. Each contact surface is a surface where acorresponding one of the at least two idler wheels is in contact withthe belt. A plurality of apertures is disposed between the at least twoouter longitudinal rows. A plurality of alignment cleats is disposedbetween the at least two outer longitudinal rows. The plurality ofalignment cleats is forming two cleat longitudinal rows. The slide railsare contacting the plurality of alignment cleats. A plurality of lateralrods is embedded within the belt. Each of the plurality of lateral rodsis extending in the lateral direction. Both ends of at least some of theplurality of lateral rods are disposed inwardly of the contact surfaces.

In a further aspect, regions of the belt outwardly of the contactsurfaces are deprived of internal lugs.

In an additional aspect, each end of each of the plurality of lateralrods is laterally aligned with a corresponding one of the two cleatlongitudinal rows.

In a further aspect, the plurality of lateral rods is embedded in thebelt between the inner side and the outer side of the belt.

In an additional aspect, each end of each the plurality of lateral rodsis laterally aligned with a corresponding one of the outer longitudinalrows.

In a further aspect, the outer longitudinal rows of internal lugs eachhave an outer edge. Each end of the at least some of the plurality oflateral rods is laterally aligned with a corresponding one of the outeredges.

In an additional aspect, each of the at least two idler wheels isconnected to a rear of a corresponding one of the slide rails.

In a further aspect, the plurality of alignment cleats is disposed overevery other portion extending longitudinally between two apertures.

In an additional aspect, the vehicle is a snowmobile. The snowmobile hasat least one ski connected to the frame. The at least one ski being isdisposed forward of the drive track.

For purposes of this application, terms related to spatial orientationsuch as forwardly, rearwardly, upwardly, downwardly, left, and right,are as they would normally be understood by a driver of the vehiclesitting thereon in a normal riding position.

Embodiments of the present invention each have at least one of theabove-mentioned objects and/or aspects, but do not necessarily have allof them. It should be understood that some aspects of the presentinvention that have resulted from attempting to attain theabove-mentioned objects may not satisfy these objects and/or may satisfyother objects not specifically recited herein.

Additional and/or alternative features, aspects, and advantages ofembodiments of the present invention will become apparent from thefollowing description, the accompanying drawings, and the appendedclaims.

BRIEF DESCRIPTION OF THE DRAWINGS

For a better understanding of the present invention as well as otherobjects and further features thereof, reference is made to the followingdescription which is to be used in conjunction with the accompanyingdrawings, where:

FIG. 1 is a cross-sectional view taken along a laterally extendingvertical plane of a portion of a prior art drive track shown with idlerwheels mounted on an axle;

FIG. 2 is a left side elevation view of a snowmobile;

FIG. 3 is a perspective view taken from a rear, left side of a portionof a drive track and a suspension assembly of the snowmobile of FIG. 2;

FIG. 4 is a perspective view taken from a rear, left side of a portionof the drive track of FIG. 3 shown with sprocket wheels; and

FIG. 5 is a cross-sectional view taken along a laterally extendingvertical plane of a portion of the drive track of FIG. 3 shown withidler wheels mounted on an axle.

DETAILED DESCRIPTION

Referring to FIG. 2, a snowmobile 10 includes a front end 2 and a rearend 4, which are defined consistently with the forward travel directionof the vehicle. The snowmobile 10 includes a chassis 6 which normallyincludes a tunnel 8, an engine cradle portion 11 and a front suspensionassembly portion 12. The snowmobile 10 has a longitudinal axis 111,about which the snowmobile 10 may slightly rotate when side hilling.

An engine 14 which is schematically illustrated, is carried by theengine cradle portion 11 of the chassis 6. A ski and steering assemblyis provided, in which two skis 16 (only one of which is shown) arepositioned at the front end 2 of the snowmobile 10, and are attached tothe front suspension assembly portion 12 of the chassis 6 through afront suspension assembly 18. The front suspension assembly 18 includesski legs 21, supporting arms 22 and ball joints (not shown) foroperatively joining the respective ski legs 21, supporting arms 22 and asteering column 24. The steering column 24 at its upper end is attachedto a steering device such as a handlebar 26 which is positioned forwardof a rider and behind the engine 14 to rotate the ski legs 21 and thusthe skis 16, in order to steer the vehicle.

A seat 38 extends from the rear end 4 of the snowmobile 10. Two footrests 40 (only one of which is shown) are positioned on opposed sides ofthe snowmobile 10 below the seat 38 to accommodate the rider's feet.

An endless drive track 128 is positioned at the rear end 4 of thesnowmobile 10 and is disposed under the tunnel 8. The endless drivetrack 128 is operatively connected to the engine 14 through a belttransmission system 30 which is schematically illustrated in brokenlines. Thus, the endless drive track 128 is driven to run about a rearsuspension assembly 32 for propulsion of the snowmobile 10. The endlessdrive track 128 is engaged with and driven by two drive sprockets 80(shown in FIG. 4) which are journaled by the tunnel 8 and is driven bythe engine 14 through the belt transmission system 30. The drivesprockets 80 are mounted on a drive axle 70 (shown in FIG. 4) which isdriven in rotation by the engine 14.

The endless drive track 128 is suspended for movement relative to thechassis 6, by the rear suspension assembly 32. The rear suspensionassembly 32 includes a slide frame assembly 44 which primarily includesa pair of spaced apart slide rails 46 that engage the inner side of theendless drive track 28. The rear suspension assembly 32 will bedescribed below. A pair of slide shoes 41 (shown in FIG. 5) is disposedaround each slide rail 46. The slide shoes 41 are made of UHWM PE (UltraHigh Molecular Weight Polyethylene). The slide shoes 41 reduce thefriction between the metal slide rails 46 and the metal alignment cleats130. It is contemplated that the slide shoes 41 could be made of a hardplastic other than UHWM PE. The lateral rods 200 will be described ingreater detail below.

The slide frame assembly 44 journals a plurality of rollers includingtwo rollers 52, 55 and idler wheels 50, 51. The rollers 55 are carriedby the rear suspension arm 64, in order to define the path over whichthe endless drive track 28 travels. The idler wheels 50, 51, which aresometimes called rear idler wheels, are rotatably connected to an axle61 which extends laterally between the slide rails 46 at a rear of theslide rails 46. It is contemplated that the snowmobile 10 could havemore or less rollers and idler wheels than the ones shown in theFigures.

The snowmobile 10 includes other elements, which will not be describedherein.

Referring to FIG. 3, the rear suspension assembly 32 comprises left andright front suspension arms 54 and a single rear suspension arm 64. Itis contemplated that the single rear suspension arm 64 could compriseleft and right rear suspension arms. The front suspension arms 54 extenddownwardly and rearwardly from a front portion of the tunnel 8. Upperends of the front suspension arms 54 are pivotally attached to thetunnel 108, and lower ends of the front suspension arms 54 are eachpivotally attached to their respective slide rails 46 of the slide frameassembly 44.

The rear suspension arm 64 extends downwardly and rearwardly from a rearportion of the tunnel 8, and are disposed rearward of the frontsuspension arms 54. The rear suspension arm 64 is pivotally attached tothe tunnel 8 of the chassis 6 by means of a tube and shaft assembly. Thetube and shaft assembly includes a tube 66 rotatably supported by ashaft (not shown) which is mounted at the opposite ends thereof to thetunnel 8. The shaft supports rollers 55, which support an upper portionof the endless drive track 28. An upper end of the rear suspension arm64 is affixed to the tube 66, and a lower end of the rear suspension arm64 is pivotally connected to the slide rails 46.

The rear suspension assembly 32 includes other elements, which will notbe described herein.

Turning to FIGS. 4 and 5, the endless track 128 will now be described.The endless track 128 has an endless flexible belt 129. The flexiblebelt 129 has the inner side 128 a, an outer side 129 b and two lateralsides 129 c. The endless track 128 includes a plurality of external lugs(or ribs) 123 that project from the outer side 129 b to give the endlesstrack 128 traction against the snow as the endless track 128 propels thesnowmobile 10, and a plurality of internal lugs 126 that project fromthe inner side 128 a. The endless track 128 has a longitudinal direction112 and a lateral direction 114. A vertical direction 113 isperpendicular to both the longitudinal direction 112 and the lateraldirection 114. The belt 129 has a width 132 in the lateral direction114.

The endless track 128 is made of rubber. It is contemplated that theendless track 128 could be made of another strong, flexible materialsuch as rubber reinforced with fabric and metal. The endless belt 129,the external lugs 123 and the internal lugs 126 are integrally formedwith each other.

The plurality of internal lugs 126 includes two left and two rightlongitudinal rows of inner track lugs 125 and a left and a rightlongitudinal row of outer track lugs 127. The inner track lugs 125 arealigned with the outer track lugs 127 in the longitudinal direction 112.The outer track lugs 127 and the inner track lugs 125 are spaced with asame pitch. It is contemplated that the inner track lugs 125 could beoffset from the outer track lugs 127 in the longitudinal direction 112.It is also contemplated that the outer track lugs 127 and the internallugs 125 could have a different pitch. It is contemplated that a layoutof the outer track lugs 127 and internal lugs 125 on the endless belt129 could be different from shown in the Figures.

The outer track lugs 127 define three regions of the belt 129. Regions141 are defined laterally between the outer track lugs 127 and thelateral sides 129 c of the belt 129 they are next to, and a region 142is defined laterally between the two rows of outer track lugs 127. Theregions 141 are deprived of internal lugs 126. As best seen in FIG. 5,the regions 141 include contact surfaces 143 which are surfaces wherethe idler wheels 51 contact the belt 129.

As best seen in FIG. 4, the inner track lugs 125 come in contact withthe two sprockets 80 for providing traction to the snowmobile 10. Asbest seen in FIG. 4, the outer track lugs 127 contact the slide rails 46to ensure that the endless belt 129 stays in alignment. The slide rails46 are sliding in a space defined between the outer track lugs 127 andinner track lugs 126 on the left side, and between the outer track lugs127 and inner track lugs 125 on the right side. It is contemplated thatthat the internal lugs 126 could be in contact with sprockets other thanthe sprockets 80 mounted onto the drive axle 70.

A plurality of longitudinally spaced apertures (or windows) 124 aredefined in the endless belt 129. The plurality of spaced apertures 124is disposed into two longitudinal rows disposed laterally between theouter track lugs 127 and outer most of the inner track lugs 126. It isalso contemplated that the plurality of longitudinally spaced apertures124 could form only one or more than two rows.

The endless track 128 also comprises a plurality of alignment cleats 130that are mounted adjacent onto the outer track lugs 127 and extendacross every second one of portions longitudinally between two apertures124 to the inner track lugs 125. The alignment cleats 130 include each abase portion 131 and a cleat portion 133. It is contemplated that thecleat portion 133 could be omitted. The cleat portions 133 of thealignment cleats 130 extend upwardly against sides of the correspondingouter track lugs 127. The base portions 131 of the alignment cleats 130receive the pair of slide shoe 41 (left and right) thereon. Thealignment cleats 130 comprise a strong, light, stamped sheet of steel.It is contemplated that other suitable material such as aluminum couldbe used to make the alignment cleats 130. It is also contemplated thatthe alignment cleats 130 could not be stamped but cast or molded intothe desired shape.

Referring more specifically to FIG. 5, the lateral rods 200 will bedescribed.

The lateral rods 200 are embedded in the belt 129 between the inner side128 a and the outer side 129 b. The plurality of lateral rods 200 isincorporated to the belt 129 during molding of the belt 129. The rods200 are made of fiber filled resin. It is contemplated that the rods 200could be made of another material. For example, the rods 200 could bemade of carbon fiber or steel. It is also contemplated that the rods 200could be made of an other composite material. It is contemplated thatthe rods 200 could be different from each other. For example, they couldhave a different length 201 in the lateral direction 114 from eachother, or a different material. The lateral rods 200 are disposedparallel to each other in the lateral direction 114 at a constant pitchand are laterally aligned. It is contemplated that the rods 200 could beoffset from each other.

To allow edges 129 c of the belt 129 to flex, the length 201 of the rods200 is smaller than the width 132 of the belt 129, and the ends 203 ofthe rods 200 are positioned inwardly of the contact surfaces 143 of theidler wheels 51. As shown in FIG. 5, the ends 203 are laterally alignedwith outer edges of the outer track lugs 127. As a consequence, theregions 141 can bend more than if the belt 129 had the prior art rods200′. It is desirable that the regions 141 bend during side hilling, forexample. Since, the regions 141 are deprived of internal lugs 126 andthe ends 203 are laterally aligned with outer edges of the outer tracklugs 127, the rods 200 do not directly support the outer idler wheels51. It is contemplated that the ends 203 of the rods 200 could bepositioned laterally inwardly from the outer edges of the outer tracklugs 127. For example, as shown in dotted lines in FIG. 5, the ends 203are laterally aligned with a center of the outer track lugs 127. Inanother example, the ends 203 are laterally aligned with the slide rails46. In another example, the ends 203 are laterally aligned with outeredges of the slide rails 26. In yet another example, the ends 203 arelaterally aligned with outer edges of the slide shoes 41. In anotherexample, the ends 203 are laterally aligned with the alignment cleats130.

Modifications and improvements to the above-described embodiments of thepresent invention may become apparent to those skilled in the art. Theforegoing description is intended to be exemplary rather than limiting.The scope of the present invention is therefore intended to be limitedsolely by the scope of the appended claims.

What is claimed is:
 1. A drive track for a tracked vehicle, the drivetrack comprising: a belt having an inner side and an outer side, thebelt having a longitudinal direction and a lateral direction, the belthaving two lateral sides; a plurality of external lugs distributed onthe outer side of the belt, the plurality of external lugs being adaptedto be in contact with a ground; a plurality of internal lugs distributedon the inner side of the belt, the plurality of internal lugs beingadapted to be at least partially in contact with at least one drivesprocket of the tracked vehicle, at least some of the plurality ofinternal lugs forming two outer longitudinal rows, each of the two outerlongitudinal rows being disposed next to a corresponding one of the twolateral sides of the belt, regions of the belt disposed outwardly of thetwo outer longitudinal rows being deprived of internal lugs; a pluralityof apertures disposed laterally between the at least two outerlongitudinal rows; a plurality of alignment cleats disposed laterallybetween the at least two outer longitudinal rows, the plurality ofalignment cleats forming two cleat longitudinal rows; and a plurality oflateral rods embedded within the belt, the plurality of lateral rodsextending in the lateral direction, both ends of at least some of theplurality of lateral rods being disposed laterally inwardly of theregions of the belt disposed laterally outwardly of the two outerlongitudinal rows.
 2. The drive track of claim 1, wherein the regions ofthe belt disposed laterally outwardly of the two outer longitudinal rowsare adapted to each receive a corresponding idler wheel of the trackedvehicle.
 3. The drive track of claim 1, wherein each end of the at leastsome of the plurality of lateral rods is laterally aligned with acorresponding one of the two cleat longitudinal rows.
 4. The drive trackof claim 1, wherein the plurality of the lateral rods is embedded in thebelt between the inner side and the outer side of the belt.
 5. The drivetrack of claim 1, wherein each end of at least some of the plurality oflateral rods is laterally aligned with a corresponding one of the twoouter longitudinal rows.
 6. The drive track of claim 5, wherein the twoouter longitudinal rows of internal lugs each have an outer edge, andeach end of at least some of the plurality of lateral rods is laterallyaligned with a corresponding one of the outer edges.
 7. The drive trackof claim 1, wherein the plurality of alignment cleats is adapted to becontacting sliding rails of the tracked vehicle.
 8. The drive track ofclaim 1, wherein the plurality of alignment cleats is disposed overevery other portion extending longitudinally between two apertures. 9.The drive track of claim 1, wherein the regions of the belt disposedoutwardly of the two outer longitudinal rows are adapted to contactidler wheels of the tracked vehicle.
 10. A tracked vehicle comprising: aframe; a straddle seat connected to the frame; an engine mounted on anengine cradle portion of the frame; a pair of slide rails connected to abottom of the frame; at least two idler wheels; at least one drivesprocket operatively connected to the engine; a drive track operativelyconnected to the at least one drive sprocket for propelling thesnowmobile, the drive track comprising: an endless belt having an innerside and an outer side, the belt having a longitudinal direction and alateral direction, the belt having two lateral sides; a plurality ofexternal lugs distributed on the outer side of the belt, the pluralityof external lugs being adapted to be in contact with a ground; aplurality of internal lugs distributed on the inner side of the belt,the plurality of internal lugs being at least partially in contact withthe at least one drive sprocket, at least some of the plurality ofinternal lugs forming two outer longitudinal rows, the two outerlongitudinal rows being disposed near to a corresponding one of the twolateral sides of the belt, the belt having at least two contactsurfaces, each contact surface being a surface where a corresponding oneof the at least two idler wheels is in contact with the belt; aplurality of apertures disposed between the at least two outerlongitudinal rows; a plurality of alignment cleats disposed between theat least two outer longitudinal rows, the plurality of alignment cleatsforming two cleat longitudinal rows, the slide rails contacting theplurality of alignment cleats; and a plurality of lateral rods embeddedwithin the belt, each of the plurality of lateral rods extending in thelateral direction, both ends of at least some of the plurality oflateral rods being disposed inwardly of the contact surfaces.
 11. Thetracked vehicle of claim 10, wherein regions of the belt outwardly ofthe contact surfaces are deprived of internal lugs.
 12. The trackedvehicle of claim 10, wherein each end of each of the plurality oflateral rods is laterally aligned with a corresponding one of the twocleat longitudinal rows.
 13. The tracked vehicle of claim 10, whereinthe plurality of lateral rods is embedded in the belt between the innerside and the outer side of the belt.
 14. The tracked vehicle of claim10, wherein each end of each the plurality of lateral rods is laterallyaligned with a corresponding one of the outer longitudinal rows.
 15. Thetracked vehicle of claim 10, wherein the outer longitudinal rows ofinternal lugs each have an outer edge, and each end of the at least someof the plurality of lateral rods is laterally aligned with acorresponding one of the outer edges.
 16. The tracked vehicle of claim10, wherein each of the at least two idler wheels is connected to a rearof a corresponding one of the slide rails.
 17. The tracked vehicle ofclaim 10, wherein the plurality of alignment cleats is disposed overevery other portion extending longitudinally between two apertures. 18.The tracked vehicle of claim 9, wherein the vehicle is a snowmobile, thesnowmobile having at least one ski connected to the frame, the at leastone ski being disposed forward of the drive track.